2014
DOI: 10.1117/1.oe.53.1.014105
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Extended linear polarimeter to measure retardance and flicker: application to liquid crystal on silicon devices in two working geometries

Abstract: Abstract. We focus on the evaluation of the applicability of the classical and well-established linear polarimeter to the measurement of linear retardance in the presence of phase flicker. This analysis shows that there are large errors in the results provided by the linear polarimeter when measuring the linear retardance of a device. These errors depend on the specific retardance value under measurement. We show that there are some points where this limitation can be used to measure the fluctuation amplitude … Show more

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Cited by 26 publications
(48 citation statements)
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“…We observe that the retardance range is about 360° for both sequences with a very good linearity. Recently we have also proposed another technique to obtain both retardance and flicker values [18] based on an adapted version of the classical linear polarimeter, which we have called the extended linear polarimeter. A more detailed characterization can be obtained by the average Stokes polarimetry, however the extended linear polarimeter can be more widely applied by any lab since only two linear polarizers are needed.…”
Section: Calibration and Comparison With Instantaneous Values From Thmentioning
confidence: 99%
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“…We observe that the retardance range is about 360° for both sequences with a very good linearity. Recently we have also proposed another technique to obtain both retardance and flicker values [18] based on an adapted version of the classical linear polarimeter, which we have called the extended linear polarimeter. A more detailed characterization can be obtained by the average Stokes polarimetry, however the extended linear polarimeter can be more widely applied by any lab since only two linear polarizers are needed.…”
Section: Calibration and Comparison With Instantaneous Values From Thmentioning
confidence: 99%
“…This is generally true in digital backplane devices due to the pulsed digital signal addressed [10,11,15,16]. Typical methods used to characterize linear variable retarders may provide erroneous results [17,18] since they typically assume that the birefringence in the waveplate has a constant value, no fluctuations, during the measurement process. Furthermore, the amplitude of the retardance fluctuation becomes a magnitude of interest for a more accurate characterization and modeling of the device under test.…”
Section: Introductionmentioning
confidence: 99%
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“…This effect could be detrimental for images as the gray level is drifting around the desired value; thus such uncertainty could reduce the diffraction efficiency of gratings [50]. By using a higher frequency for the driving sequence, the flicker amplitude can be reasonably reduced, which is also demonstrated by Martínez et al for visible bandwidth [51]. Figure 2 shows the experimental setup for flicker measurement, in which linearly polarized light vibrating at 45 • with respect to the LC director (the LC director is parallel to the long axis of the display for GAEA device) impinges perpendicularly onto the entrance window of the device.…”
Section: Phase Flickermentioning
confidence: 48%